SIMULATION OF HEAT FLOW TRANSMISSION THROUGH FOILED THERMOPANELS BY THE CORRELATION-REGRESSION ANALYSIS METHOD

Authors

DOI:

https://doi.org/10.31649/2311-1429-2019-1-70-77

Keywords:

thermal conductivity, energy reflecting screen, thermal resistance

Abstract

There is a lack of objective information on the heat-shielding properties of screen thermal insulation, and the available information, which is usually provided by manufacturers of this product, is highly controversial. Therefore, now there is a need for a detailed study of the properties of screen insulation in combination with unventilated air layers, which will enable the most correct and effective use of such materials in construction.

Experimental research is the main source for obtaining reliable information on the thermophysical characteristics of screen thermal isolation. In order to determine the properties of such isolation, many experimental studies have been carried out. Experimental research is the main source for obtaining reliable information on the thermophysical characteristics of screen thermal isolation. In order to determine the properties of such isolation, many experimental studies have been carried out.

The method of calculation of thermal conductivity coefficients of thermal insulation materials and carrying out of measurements of thermal conductivity at the laboratory installation, experimental determination of the coefficient of thermal conductivity of various flat materials is considered.

Author Biographies

Vitaliy Shvets, Vinnytsia National Technical University

Ph.D., Associate Professor of Urban Planning and Architecture

Marina Maksymenko, Vinnytsia National Technical University

PhD student

Vadim Kozak, Vinnytsia National Technical University

magister

References

Saparëv M. E. Yssledovanye teplovoho rezhyma uteplennykh ohrazhdayushchykh konstruktsyy zdanyy y vozdukhovodov s prymenenyem ékrannoy teplovoy yzolyatsyy: dys. ... kand. tekhn. nauk. Samarskyy hosudarstvennyy arkhytekturno-stroytelʹnyy unyversytet, Samara, 2015

Arkadʹev L.V., Povolotskyy V.A. Yssledovanye mnohoékrannoy yzolyatsyy // Yzv. vuzov. Ser. Énerhetyka. 1964. №1. S. 12-15.

3.Konstruktsiyi budivelʹ i sporud. Teplova izolyatsiya budivelʹ: DBN V 2.631:2006. - [Chynnyy vid 2006-09-09]. – K.: Minrehionbud Ukrayiny, 2007. - 71 s. - (Natsionalʹnyy standart Ukrayiny). Zi Zminoyu №1 vid 01.07.2013 r.

Petruk V.G., Volodarskiy E.T., MokIn V.B. Osnovi naukovo-doslIdnoYi roboti. Navchalniy posIbnik /PId red. d.t.n., prof. Petruka V. G.– VInni-tsya: VNTU, 2005. – 143 s.

Spiridonov A.A. Planirovanie ksperementa pri issledovanii tehnologIcheskih protsesov .- Moskva 1981r. – st.87-90.

TehnologIya konstruktsIynih materIalIv: PIdruchnik / M. A. Sologub, I. O. Rozhnetskiy, O. I. Nekoz ta In.; Za red. M. A. Sologuba. – 2-ge vid., pererob. I dopov. – K.: Vischa shkola, 2002. – 374с.

Обклад

Downloads

Abstract views: 34

Published

2019-08-12

How to Cite

[1]
V. Shvets, M. Maksymenko, and V. Kozak, “SIMULATION OF HEAT FLOW TRANSMISSION THROUGH FOILED THERMOPANELS BY THE CORRELATION-REGRESSION ANALYSIS METHOD”, СучТехнБудів, vol. 26, no. 1, pp. 72–77, Aug. 2019.

Issue

Vol. 26 No. 1 (2019)

Section

MODELING OF BUILDING PRODUCTION

Metrics

Downloads

Download data is not yet available.

License

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Most read articles by the same author(s)

1 2 3 > >>